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| Naji, M. |
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| Mohamed, Tarek |
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| Petrov, R. H. | Madrid |
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| Casati, R. |
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| Azevedo, Nuno Monteiro |
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Tian, Yingtao
Lancaster University
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (8/8 displayed)
- 2019Effect of processing parameters on the densification, microstructure and crystallographic texture during the laser powder bed fusion of pure tungstencitations
- 2016Laser polishing - Enhancing surface quality of additively manufactured cobalt chrome and titanium components
- 2016Process Optimization of Dual-Laser Beam Welding of Advanced Al-Li Alloys Through Hot Cracking Susceptibility Modelingcitations
- 2011Investigation of high speed micro-bump formation through electrodeposition enhanced by megasonic agitationcitations
- 2009Megasonic agitation for enhanced electrodeposition of coppercitations
- 2009Megasonic agitation for enhanced electrodeposition of coppercitations
- 2009High density indium bumping using electrodeposition enhanced by megasonic agitationcitations
- 2008Megasonic enhanced wafer bumping process to enable high density electronics interconnectioncitations
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document
Megasonic enhanced wafer bumping process to enable high density electronics interconnection
Abstract
<p>The assembly of hybrid pixel detectors requires direct interconnection between the readout chip and sensor chip. In such systems, the connection pitch size may be below 50 µm, such that the packing density (i.e. I/Os) may exceed 40,000/cm<sup>2</sup>. Electroplating is a promising approach to enable low-cost, high yield and ultra-fine pitch bumping. This paper reports an ultra-fine pitch electroplating bumping process which can be enhanced by incorporating megasonic agitation. Acoustic agitation at above 1 MHz frequencies is able to significantly reduce the diffusion boundary layer of electroplating to a thickness less than 1 µm, as compared to tens of microns under conventional plating conditions. The initial experimental results presented here demonstrate an enhanced polycrystalline growth other than dendrite deposition under a very high current density through megasonic agitation deposition, thereby allowing a significant acceleration of the electrodeposition process. For the electroplating wafer bumping process, megasonic agitation can also accelerate the bump growth rate under the same current density, due to the increase of cathodic current efficiency. Also, megasonic agitation appears not to damage the photoresist pattern, which is often the case when ultrasonic agitation is used. ©2008 IEEE.</p>